Maximizing Selectivity in the Trambouze Reactions
Maximizing Selectivity in the Trambouze Reactions
This Demonstration shows the start-up of a CSTR (continuous stirred-tank reactor) under conditions that maximize the selectivity of a desired product in a parallel reactions scheme.
Consider the following reactions taking place in a CSTR: species decomposes by three simultaneous reactions to form three products—one desired, , and two undesired, , and ,
A
B
X
Y
A=X
r
X
k
1
→
A=B
r
B
k
2
c
A
→
A=Y
r
Y
k
3
2
c
A
→
These are called the Trambouze reactions [1]. Here and with and are the reaction rates and rate constants, respectively, and is the concentration of species .
r
i
k
j
i=X,B,Y
j=1,2,3
c
A
A
The selectivity of species is given by the ratio ==+,
B
effluentflowrateofB
flowrateofundesieredproducts
s
B
k
2
c
A
k
1
k
3
2
c
A
the reactor residence time is , the CSTR is operated at an effluent concentration of species , , that maximizes the selectivity of the desired product , the feed stream contains only species at a concentration equal to 1, and the initial concentrations of species , , and are taken equal to zero, with =0.0015. The optimum effluent concentration of reactant , , and the time plot of the reactor start-up are shown for values of time and that are set by the user.
τ=-++
c
A
in
c
A
k
1
k
2
c
A
k
3
2
c
A
A
c
A
s
B
B
A
A,
X
B
Y
k
2
A
c
A
k
1
k
3